9.8 KiB
9.8 KiB
Assert
Standard library basic mathematical assertion utilities.
Usage
var ns = require( '@stdlib/math/base/assert' );
ns
Standard library basic mathematical assertion utilities.
var o = ns;
// returns {...}
isEvenInt32( x ): test if a 32-bit integer is even.isOddInt32( x ): test if a 32-bit integer is odd.isComposite( x ): test if a number is a composite.isCoprime( a, b ): test if two numbers are coprime.isEven( x ): test if a finite numeric value is an even number.isFinite( x ): test if a double-precision floating-point numeric value is finite.isFinitef( x ): test if a single-precision floating-point numeric value is finite.isInfinite( x ): test if a double-precision floating-point numeric value is infinite.isInfinitef( x ): test if a single-precision floating-point numeric value is infinite.isInteger( x ): test if a finite double-precision floating-point number is an integer.isnan( x ): test if a double-precision floating-point numeric value is NaN.isnanf( x ): test if a single-precision floating-point numeric value is NaN.isNegativeInteger( x ): test if a finite double-precision floating-point number is a negative integer.isNegativeZero( x ): test if a double-precision floating-point numeric value is negative zero.isNegativeZerof( x ): test if a single-precision floating-point numeric value is negative zero.isNonNegativeInteger( x ): test if a finite double-precision floating-point number is a nonnegative integer.isNonPositiveInteger( x ): test if a finite double-precision floating-point number is a nonpositive integer.isOdd( x ): test if a finite numeric value is an odd number.isPositiveInteger( x ): test if a finite double-precision floating-point number is a positive integer.isPositiveZero( x ): test if a double-precision floating-point numeric value is positive zero.isPositiveZerof( x ): test if a single-precision floating-point numeric value is positive zero.isPrime( x ): test if a number is a prime.isProbability( x ): test if a numeric value is a probability.isSafeInteger( x ): test if a finite double-precision floating-point number is a safe integer.isPow2Uint32( x ): test whether an unsigned integer is a power of 2.
Examples
var objectKeys = require( '@stdlib/utils/keys' );
var ns = require( '@stdlib/math/base/assert' );
console.log( objectKeys( ns ) );